Figure shown a charged conductor resting on an insulating stand. If at the point `P` the charge density is `sigma`, the potential is `V` and the electric field strength is `E`, what are the values of these quantities at point `Q` ?

A conductor with a cavity is charged positively and its surface charge density is sigma . If E and V represent the electric field and potential, then inside the cavity

find the electric field strength due to a point charge of 5 muC at a distance of 80 cm from the charge.

The figure shows three infinite non-conducting plates of charge perpendicular to the plane of the paper with charge per unit area +sigma, +2sigma and -sigma . Find the ratio of the net electric field at that point a to that at point B.

Inside a charged thin conducting shell of radius R, a point charge +Q is placed as shown in figure potential of shell may be

Two point charges +Q and -Q are separated by a certain distance. The resultant electric field is parallel to the line joining the charges at the points

The electric field and the electric potential at a point are E and V respectively.

Three infinitely long charge sheets are placed as shown in figure. The electric field at point P is

n charged drops, each of radius r and charge q , coalesce to from a big drop of radius R and charge Q . If V is the electric potential and E is the electric field at the surface of a drop, then.

The electric field on two sides of a thin sheet of charge is shown in the figure. The charge density on the sheet is

A point charge q is situated at X between two parallel plates which have a potential difference V and carry charges +Q and -Q . What is the electric field strength at X ?